Rosaria Medda

Plant copper-amine oxidases

In this review, the widely distributed plant copper-amine oxidases are described. The purification procedures, molecular features, substrate specificities, inhibitors, the stoichiometry of the catalysed reaction, spectroscopic features, the prosthetic groups and reaction mechanisms, are all reviewed.

The physiopathological significance of ceruloplasmin: A possible therapeutic approach

This article reviews and comments on the physiological roles of ceruloplasmin (Cp). We show that, in addition to its ascertained involvement in iron homeostasis, the protein, by virtue of its unique structure among multicopper oxidases, is likely involved in other processes of both an enzymatic and a nonenzymatic nature. In particular, based on the analysis of the kinetic parameters, on the one hand, and of the side-products of the oxidation, on the other, we propose that the long-recognized ability of Cp to interact with and oxidize non-iron substrates may be of physiological relevance. The striking example of 6-hydroxydopamine oxidation is presented, where we show that the catalytic action is carried out readily under physiological conditions, without release of potentially toxic oxygen intermediates.

Interaction of Methimazole with I2: X-ray Crystal Structure of the Charge Transfer Complex Methimazole−I2. Implications for the Mechanism of Action of Methimazole-Based Antithyroid Drugs

The antithyroid drug methimazole (MMI) reacts with molecular iodine to form, in a multistep process, 1-methylimidazole as final product. In this process, the charge transfer complex MMI-I 2 and the ionic disulfide [(C 4H 6N 2S-) 2] (2+) ( 1, dication MMI disulfide) have been isolated and their X-ray crystal structures solved. Dication MMI disulfide perchlorate acts effectively both in reducing I 2 to I (-) ions and in showing antioxidant properties in inactivating the enzyme lactoperoxidase compound I.

CUI-SEMIQUINONE RADICAL SPECIES IN PLANT COPPER-AMINE OXIDASES

The intermediate CuI‐semiquinone radical species in the catalytic mechanism of copper‐amine oxidase from Lens esculenta and Pisum sativum seedlings has been studied by optical, Raman resonance and ESR spectroscopies and by stopped‐flow and temperature‐jump measurements. Treatment of highly purified enzyme preparations with good, poor or suicide substrates, under anaerobic and aerobic conditions, at different pH values and temperatures, makes it possible to generate, detect and characterize this free radical intermediate.

Purification and characterization of Opuntia peroxidase

Abstract Peroxidase from Opuntia ficus indica fruits was purified with chromatographic methods. The enzyme had a characteristic spectrum in the visible region and R z ( A 403 A 275 ) value of 2.56. It showed a single band in SDS-PAGE electrophoresis. The peroxidase had a Mr of 58 000±2000, an isoelectric point of 7.2 and contained an ironprotoporphyrin IX as prosthetic group. The pH optimum was at 5.75 in 100 mM Na acetate buffer using o-dianisidine as substrate. The activation energy was estimated to be 16 kcal mol−1 and 50% inactivation occurred after 60 min at 60°.

2-Phenylbenzofuran derivatives as butyrylcholinesterase inhibitors: Synthesis, biological activity and molecular modeling.

A series of 2-phenylbenzofurans compounds was designed, synthesized and evaluated as cholinesterase inhibitors. The biological assay experiments showed that most of the compounds displayed a clearly selective inhibition for butyrylcholinesterase (BChE), while a weak or no effect towards acetylcholinesterase (AChE) was detected. Among these benzofuran derivatives, compound 16 exhibited the highest BChE inhibition with an IC50 value of 30.3 μM. This compound was found to be a mixed-type inhibitor as determined by kinetic analysis. Moreover, molecular dynamics simulations revealed that compound 16 binds to both the catalytic anionic site (CAS) and peripheral anionic site (PAS) of BChE and it displayed the best interaction energy value, in agreement with our experimental data.

Lentil seedlings amine oxidase: Preparation and properties of the copper-free enzyme

The reaction of copper-free lentil seedlings amine oxidase with substrates has been studied. While devoid of catalytic activity, this enzyme preparation is still able to oxidize two moles of substrate and to release two moles of aldehyde and two moles of ammonia per mole of dimeric protein. The same stoichiometry has been determined on the native enzyme in the absence of oxygen. Although copper is essential for the reoxidation of the reduced enzyme, a binding of oxygen to the copper-free protein has been demonstrated.

Peroxidase from euphorbia characias latex: purification and properties

Abstract A peroxidase has been purified to homogeneity from Euphorbia characias latex using ammonium sulfate precipitation and chromatography on DEAE-cellulose, hydroxylapatite and SP-Sephadex columns. The substrate specificity of the enzyme is typical of a plant peroxidase except that it shows no activity with indole-3-acetic acid. The pH optimum of the enzyme was 5.75 and the isoelectric point 7.4. The activation energy was 14 kcal/mol. The prosthetic group was shown to be ferriprotoporphyrin IX. Gel chromatography and PAGE indicate that the purified protein is composed of a single polypeptide chain having a MW of ca 48 000.

Effect of metal substitution in copper amine oxidase from lentil seedlings

Abstract The reaction with substrates and carbonyl reagents of native lentil Cu-amine oxidase and its modified forms, i.e. Cu-fully-depleted, Cu-half-reconstituted, Cu-fully-reconstituted, Co-substituted, Ni-substituted and Zn-substituted, has been studied. Upon removal of only one of the two Cu ions, the enzyme loses 50% of its enzymatic activity. Using several substrates, Co-substituted lentil amine oxidase is shown to be active but the kc value is different from that of native or Cu-fully-reconstituted enzyme, while Km is similar. On the other hand, the Ni- and Zn-substituted forms are catalytically inactive. Enzymatic activity measurements and optical spectroscopy show that only in the Co-substituted enzyme is the organic cofactor 6-hydroxydopa quinone reactive and the enzyme catalytically competent, although less efficient. The Co-substituted amine oxidase does not form the semiquinone radical as an intermediate of the catalytic reaction. While devoid or reduced of catalytic activity, all the enzyme preparations are still able to oxidise two moles of substrate and to release two moles of aldehyde per mole of dimeric enzyme. The results obtained show that although Co-substituted amine oxidase is catalytically competent, copper is essential for the catalytic mechanism.

Modulation of 6-hydroxydopamine oxidation by various proteins

The spontaneous autoxidation of the neurotoxin 6-hydroxydopamine proceeds by a free radical chain reaction involving the superoxide anion radical and produces the corresponding chromogen 6-hydroxydopamine quinone and hydrogen peroxide. The rate of this reaction is increased in the presence of ceruloplasmin and peroxidase, and reduced by superoxide dismutase, catalase, and DT-diaphorase. We report some explanations of why these proteins may increase or reduce the rate of autoxidation of 6-hydroxydopamine.